Editing Coriolis force (section)

====Flow around a low-pressure area====
{{Main|Low-pressure area}}
If a low-pressure area forms in the atmosphere, air tends to flow in towards it, but is deflected perpendicular to its velocity by the Coriolis force. A system of equilibrium can then establish itself creating circular movement, or a cyclonic flow. Because the Rossby number is low, the force balance is largely between the [[pressure-gradient force]] acting towards the low-pressure area and the Coriolis force acting away from the center of the low pressure.

Instead of flowing down the gradient, large scale motions in the atmosphere and ocean tend to occur perpendicular to the pressure gradient. This is known as [[geostrophic flow]].<ref name=Barry>{{cite book| title=Atmosphere, Weather and Climate |author = Barry, Roger Graham & Chorley, Richard J. | url=https://books.google.com/books?id=MUQOAAAAQAAJ&pg=PA115|page=115 |isbn=9780415271714 |year=2003 | location = Abingdon-on-Thames, Oxfordshire, England | publisher=Routledge-Taylor & Francis}}</ref> On a non-rotating planet, fluid would flow along the straightest possible line, quickly eliminating pressure gradients. The geostrophic balance is thus very different from the case of "inertial motions" (see below), which explains why mid-latitude cyclones are larger by an order of magnitude than inertial circle flow would be.{{citation needed|date = June 2023}}

This pattern of deflection, and the direction of movement, is called [[Buys-Ballot's law]]. In the atmosphere, the pattern of flow is called a [[cyclone]]. In the Northern Hemisphere the direction of movement around a low-pressure area is anticlockwise. In the Southern Hemisphere, the direction of movement is clockwise because the rotational dynamics is a mirror image there.<ref>{{cite web | last = Nelson | first = Stephen | title = Tropical Cyclones (Hurricanes) | work = Wind Systems: Low Pressure Centers | location = New Orleans, LA | publisher = [[Tulane University]] | date = Fall 2014 | url = http://www.tulane.edu/~sanelson/New_Orleans_and_Hurricanes/tropical_cyclones.htm | access-date = 2016-12-24 }}</ref> At high altitudes, outward-spreading air rotates in the opposite direction.{{citation needed|date = June 2023}}<ref>For instance, see the image appearing in this source: {{cite web | author = NASA Staff | date =  | title = Cloud Spirals and Outflow in Tropical Storm Katrina from Earth Observatory | work = JPL.NASA.gov | url = https://photojournal.jpl.nasa.gov/catalog/PIA04384 | access-date =  | location =  | publisher = [[NASA]]  }}{{full citation needed|date = June 2023}}</ref>{{full citation needed|date = June 2023}} Cyclones rarely form along the equator due to the weak Coriolis effect present in this region.<ref>{{Cite book| url=https://books.google.com/books?id=XRxzAwAAQBAJ&pg=PA326 |title=Encyclopedia of Disaster Relief |last1=Penuel|first1=K. Bradley |last2=Statler|first2=Matt |date=2010-12-29 |publisher=SAGE Publications |isbn=9781452266398 |page=326|language=en}}</ref>